CN205656191U - Soil moisture remote monitoring system - Google Patents

Abstract

The utility model provides a soil moisture remote monitoring system, relates to a soil environment monitoring system, gather node and one including at least one and assemble the node, wherein, it includes power module, sensor, controller, wireless module to gather the node, it includes power, wireless receiving module, total controller, GPRS module and GGSN gateway to assemble the node, the wireless receiving module is connected with total controller, reaches total controller with data, and total controller connects the GPRS module, and GGSN gateway and internet connection are passed through to the GPRS module, user terminal accessible internet remote monitoring soil moisture data, based on above structure, the utility model discloses a to soil moisture remote monitoring to low cost, convenient to use.

Description

A kind of soil moisture content remote monitoring system

Technical field

This utility model relates to a kind of soil moisture monitoring system, is specifically related to a kind of soil moisture content remote monitoring system.

Background technology

Along with the development of science and technology, sensor technology gets more and more in application agriculturally；Soil moisture is closely related with the growth of crops, and sensor uses the most universal in terms of monitoring soil moisture.The kind of sensor of existing various detection soil moisture is a lot, but there is the problem needing to monitor on the spot, the most convenient.

Utility model content

Technical scheme to be solved in the utility model is: need to detect on the spot for existing soil moisture sensor, it is impossible to the remotely problem of monitoring, and this utility model provides a kind of soil moisture content remote monitoring system.

Technical solution adopted in the utility model is:

A kind of soil moisture content remote monitoring system, including at least one acquisition node and an aggregation node；Wherein, acquisition node is the most basic unit gathering data, including power module, sensor, controller, wireless module；Power module is connected with sensor, controller, wireless module respectively and powers, and sensor connects controller, and controller connects wireless module, by wireless module, data is sent to aggregation node after the data of controller reception sensor；Aggregation node includes power supply, wireless receiving module, master controller, GPRS module and GGSN gateway；Wherein, power supply is connected with wireless receiving module, master controller, GPRS module and GGSN gateway and powers respectively, and wireless receiving module passes through wireless connections with the wireless module of each acquisition node, receives data；Wireless receiving module is connected with master controller, and data reach master controller, and master controller connects GPRS module, and GPRS module is connected with the Internet by GGSN gateway；User terminal can remotely monitor soil moisture data by the Internet.

Further, described acquisition node and aggregation node all comprise photovoltaic module.

Further, described wireless module and wireless receiving module use ZigBee technology.

The beneficial effects of the utility model are: this utility model gathers data by least one acquisition node, by ZigBee wireless technology by each acquisition node data summarization to aggregation node, data are processed by aggregation node, and by GPRS module, data are exchanged with user terminal by the Internet, it is achieved that to soil moisture content remote monitoring.

Accompanying drawing explanation

Fig. 1 is described a kind of soil moisture content remote monitoring system.

Detailed description of the invention

Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in detail.

A kind of soil moisture content remote monitoring system as shown in Figure 1, including at least one acquisition node and an aggregation node；Wherein, acquisition node is the most basic unit gathering data, including power module, sensor, controller, wireless module；Power module is connected with sensor, controller, wireless module respectively and powers, and sensor connects controller, and controller connects wireless module, by wireless module, data is sent to aggregation node after the data of controller reception sensor；Aggregation node includes power supply, wireless receiving module, master controller, GPRS module and GGSN gateway；Wherein, power supply is connected with wireless receiving module, master controller, GPRS module and GGSN gateway and powers respectively, and wireless receiving module passes through wireless connections with the wireless module of each acquisition node, receives data；Wireless receiving module is connected with master controller, and data reach master controller, and master controller connects GPRS module, and GPRS module is connected with the Internet by GGSN gateway；User terminal can remotely monitor soil moisture data by the Internet.

Described acquisition node and aggregation node all comprise photovoltaic module.

Described wireless module and wireless receiving module use ZigBee technology.

Embodiment 1: acquisition node sensor uses FDR-100 soil moisture sensor, and controller and wireless module are CC2530 chip, these chip internal integrated RF (RF), internal memory, controller, A/D converter etc., and power module uses photovoltaic charged battery；Aggregation node wireless receiving module and controller are CC2530 chip, and GPRS module is SIM 300D module, power module is photovoltaic charged battery.

Of the present utility model ultimate principle, principal character and of the present utility model advantage have more than been shown and described.This utility model is not restricted to the described embodiments; described in above-described embodiment and description, principle of the present utility model is simply described; on the premise of without departing from this utility model spirit and scope, this utility model also has various changes and modifications, and these changes and improvements both fall within the range of claimed this utility model.This utility model claims scope and is defined by appending claims and equivalent thereof.

Claims (3)

1. a soil moisture content remote monitoring system, is characterized in that: include at least one acquisition node and an aggregation node；Wherein, acquisition node is the most basic unit gathering data, including power module, sensor, controller, wireless module；Power module is connected with sensor, controller, wireless module respectively and powers, and sensor connects controller, and controller connects wireless module, by wireless module, data is sent to aggregation node after the data of controller reception sensor；Aggregation node includes power supply, wireless receiving module, master controller, GPRS module and GGSN gateway；Wherein, power supply is connected with wireless receiving module, master controller, GPRS module and GGSN gateway and powers respectively, and wireless receiving module passes through wireless connections with the wireless module of each acquisition node, receives data；Wireless receiving module is connected with master controller, and data reach master controller, and master controller connects GPRS module, and GPRS module is connected with the Internet by GGSN gateway；User terminal can remotely monitor soil moisture data by the Internet.

2. a kind of soil moisture content remote monitoring system as claimed in claim 1, is characterized in that: described acquisition node and aggregation node all comprise photovoltaic module.

3. a kind of soil moisture content remote monitoring system as claimed in claim 1, is characterized in that: described wireless module and wireless receiving module use ZigBee technology.